Characterization of Bread Wheat Genotypes Using Spike Related Traits for Sustainable Yield Potential

Hafiz Ghulam Muhu-Din Ahmed; Noor Fatima; Anns Faisal; Aziz Ullah; Muhammad Ali; Muhammad Ameen; Muhammad Irfan; Muhammad Imran

doi:10.38211/joarps.2023.04.01.56

Characterization of Bread Wheat Genotypes Using Spike Related Traits for Sustainable Yield Potential

Authors

Hafiz Ghulam Muhu-Din Ahmed islamia university of bahawalpur
Noor Fatima
Anns Faisal
Aziz Ullah
Muhammad Ali
Muhammad Ameen
Muhammad Irfan
Muhammad Imran Department of Soil Science, Faculty of Agriculture and Environment, The Islamia University of Bahawalpur, Pakistan

DOI:

https://doi.org/10.38211/joarps.2023.04.01.56

Keywords:

Yield, Wheat, Correlation, Grain, Tillers, Spike, Genotypes

Abstract

Wheat is a cereal that is majorly consumed around the world. There is a dire need for the advancement of wheat cultivars that are producing high yield. The experiment was conducted to characterize the spike related traits of wheat genotypes. Twenty wheat genotypes comprising three replications were experimented using randomized complete block design. The difference was significant among the studied twenty genotypes revealed by analysis of variance. Correlation Pearson’s revealed that the number of grains per spike (GPS) has positive relationship among all the studied traits such as the number of tillers per plant (NTP), spike weight (SWT), spike length (SL), and grain yield per plant (GYP). The GYP has a strong positive association with GPS (0.81**), GYS (0.78**), and SL (0.68**). The biological yield had a non-significant association with GYS (0.28) and GPS (0.13). All studied attributes have variations in the mean values which were represented by Radar analysis. The genotype Sadiq-21 was the best performing genotype among the SWT, GYS and BY followed by genotype Nawab-21 which performed best among the NTP, GYS and GPS and genotype Ghazi-19 which performed good among BY, SWT and GPS. The genotypes that were among the worst performing were Suren-10, Galaxy-13 and Borluag-16. The result of our study showed grain yield was mainly affected by NTP, GYS and GPS. For the improvement of wheat yield, these attributes must be improved for selection so that the yield of the wheat can be increased because these have a strong association with the grain yield.

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References

Abderrahmane, H., El Abidine, F. Z., Hamenna, B., & Ammar, B. (2013). Correlation, path analysis and stepwise regression in durum wheat (triticum durum desf.) under rainfed conditions. Journal of Agriculture and Sustainability, 3(2).

Abro, A. A., Khoso, A. G., Eisawi, K. A. E., Abdelghany, A. E. A., Batyrbek, M. B., Sial, N. Y., Malhi, B. (2022). Study on correlations for morpho-physio traits of six wheat cultivars. Journal of Applied Research in Plant Sciences, 3(01), 198-205. DOI: https://doi.org/10.38211/joarps.2022.3.1.24

Ahmad, I., Mahmood, N., Khaliq, I., & Khan, N. (2016). Genetic analysis for five important morphological attributes in wheat (triticum aestivum l.). JAPS: Journal of Animal & Plant Sciences, 26(3).

Ahmed, H. G. M.-D., Noor, F., Muhammad, O., Anns, F., Sheeza, T., Ali, M., Muhammad, A. (2022). Variability and correlation study of growth traits in bread wheat under non-stressed conditions. Journal of Applied Research in Plant Sciences, 3(02), 317-324. doi:10.38211/joarps.2022.3.2.39 DOI: https://doi.org/10.38211/joarps.2022.3.2.39

Akram, Z., Ajmal, S. U., & Munir, M. (2008). Estimation of correlation coefficient among some yield parameters of wheat under rainfed conditions. Pak. J. Bot, 40(4), 1777-1781.

AL-jana, M. H., & Al-Burki, F. R. Study of path coefficient and some indicators of vegetation and genotype components of wheat (triticum aestivum l.). European Journal of Molecular & Clinical Medicine, 7(09), 2020.

Ali, M. A., Nawab, N. N., Rasool, G., & Saleem, M. (2008). Estimates of variability and correlations for quantitative traits in cicer arietinum. J. Agric. Soc. Sci, 4(4), 177-179.

Anwar, J., Ali, M., Hussain, M., Sabir, W., Khan, M., Zulkiffal, M., & Abdullah, M. (2009). Assessment of yield criteria in bread wheat through correlation and path analysis. Journal of Animal and Plant Sciences, 19(4), 185-188.

Arain, S., Kaloi, G. M., Sail, M. A., Soomro, A. F., Mari, A. H., Rajput, M. A., Soomro, A. G. (2022). Wheat genotypes screening for high temperature tolerance under late sowing conditions. Journal of Applied Research in Plant Sciences, 3(01), 169-176. DOI: https://doi.org/10.38211/joarps.2022.3.1.21

Aycicek, M., & Yildirim, T. (2006). Path coefficient analysis of yield and yield components in bread wheat (triticum aestivum l.) genotypes. Pakistan Journal of Botany, 38(2), 417.

Baloch, M. J., Channa, G. M., Jatoi, W. A., Baloch, A. W., Rind, I. H., Arain, M. A., & Keerio, A. A. (2016). Genetic characterization in 5× 5 diallel crosses for yield traits in bread wheat. Sarhad Journal of Agriculture, 32(3), 127-133. DOI: https://doi.org/10.17582/journal.sja/2016/32.3.127.133

Baloch, M. S., Nadim, M. A., Zubair, M., Awan, I. U., Khan, E. A., & Ali, S. (2012). Evaluation of wheat under normal and late sowing conditions. Pak. J. Bot, 44(5), 1727-1732.

Bhushan, B., Bharti, S., Ojha, A., Pandey, M., Gourav, S. S., Tyagi, B. S., & Singh, G. (2013). Genetic variability, correlation coefficient and path analysis of some quantitative traits in bread wheat. Journal of Wheat Research, 5(1), 21-26.

Bilal, M., & Zakria, S. M. (2021). Improving water productivity by adoption of high efficiency irrigation systems among vegetable growers in district rawalpindi, punjab pakistan. Pakistan Journal of Agricultural Sciences, 58(3).

Bnejdi, F., & El, G. M. (2010). Epistasis and genotype-by-environment interaction of grain yield related traits in durum wheat. Journal of Plant Breeding and Crop Science, 2(2), 024-029.

Desheva, G. (2016). Correlation and path-coefficient analysis of quantitative characters in winter bread wheat varieties. DOI: https://doi.org/10.15547/tjs.2016.01.003

Fakhar, U., Fida, M., & Sheraz, A. (2015). Genetic divergence in wheat recombinant inbred lines for yield and yield components. Academia Journal of Agricultural Research, 3(10), 303-307.

Farooq, J., Khaliq, I., Ali, M. A., Kashif, M., Rehman, A. U., Naveed, M., Farooq, A. (2011). Inheritance pattern of yield attributes in spring wheat at grain filling stage under different temperature regimes. Australian Journal of Crop Science, 5(13), 1745-1753.

Khan, S. A., & Hassan, G. (2017). Heritability and correlation studies of yield and yield related traits in bread wheat. Sarhad Journal of Agriculture, 33(1), 103-107. DOI: https://doi.org/10.17582/journal.sja/2017.33.1.103.107

Kumar, D., & Kerkhi, S. (2015). Genetic variability, heritability and genetic advance for yield component and quality traits in spring wheat (triticum aestivum l.). The Bioscan, 10(4), 2125-2129.

Kumar, S., Singh, D., & Dhivedi, V. (2010). Analysis of yield components and their association in wheat for arthitecturing the desirable plant type. Indian J. Agric. Res, 44(4), 267-273.

Masood, S. A., Ahmad, S., Kashif, M., & Ali, Q. (2014). Correlation analysis for grain and its contributing traits in wheat (triticum aestivum l.). Nat Sci, 12(11), 168-176.

Mecha, B., Alamerew, S., Assefa, A., Dutamo, D., & Assefa, E. (2017). Correlation and path coefficient studies of yield and yield associated traits in bread wheat (triticum aestivum l.) genotypes. Adv Plants Agric Res, 6(5), 128-136. DOI: https://doi.org/10.15406/apar.2017.06.00226

Mollasadeghi, V., & Shahryari, R. (2011). Important morphological markers for improvement of yield in bread wheat. Advances Environ. Biol, 5(3), 538-542.

Muhammad, I. K., Makhdoom, H., Nadeem, A., & Waseem, S. (2010). Correlation and path analysis for yield and yield contributing characters in wheat (triticum aestivum l.). African journal of plant science, 4(11), 464-466.

Peymaninia, Y., Valizadeh, M., Shahryari, R., Ahmadizadeh, M., & Habibpour, M. (2012a). Relationship among morpho-physiological traits in bread wheat against drought stress at presence of a leonardite derived humic fertilizer under greenhouse condition. International Research Journal of Applied and Basic Sciences, 3(4), 822-830.

Peymaninia, Y., Valizadeh, M., Shahryari, R., Ahmadizadeh, M., & Habibpour, M. (2012b). Relationship among morpho-physiological traits in bread wheat against drought stress at presence of a leonardite derived humic fertilizer under greenhouse condition. Int Res J Appl Basic Sci, 3(4), 822-830.

Qasim, M., Qamer, M., Alam, M., & Alam, M. (2008). Sowing dates effect on yield and yield components of different wheat varieties. J. Agric. Res, 46(2), 135-140.

Sarfraz, Z., Shah, M. M., Iqbal, M. S., Nazir, M. F., & Fatima, S. A. (2020). Cause and effect relationship of morphological attributes with yield in a-genome wheat. Journal of Applied Research in Plant Sciences, 1(1), 13-19. DOI: https://doi.org/10.38211/joarps.2020.1.1.3

Saxena, P., Rawat, R., Verma, J., & Meena, B. (2007). Variability and association analysis for yield and quality traits in wheat. Pantnagar Journal of Research, 5(2), 85-92.

Shahid, M., Mohammad, F., & Tahir, M. (2002). Path coefficient analysis in wheat. Sarhad Journal of Agriculture, 18(4), 383-388.

Sharma, S., & Subehia, S. (2003). Effects of twenty-five years of fertilizer use on maize and wheat yields and quality of an acidic soil in the western himalayas. Experimental Agriculture, 39(1), 55-64. DOI: https://doi.org/10.1017/S0014479702001035

Soghi, H., Kalate Arabi, M., & Abrudi, S. (2006). Stability analysis of grain yield and study on relationship between traits in advanced bread wheat lines in gorgan. Paj. Saz. Agron. Horti, 70, 56-62.

Sokoto, M., Abubakar, I., & Dikko, A. (2012). Correlation analysis of some growth, yield, yield components and grain quality of wheat (triticum aestivum l.). Nigerian Journal of Basic and Applied Sciences, 20(4), 349-356.

Soomro, T. A., Abro, T. F., Jatoi, W. A., Sial, M. A., Baloch, A. W., Laghari, K. A., Soomro, A. B. (2022). The effect of water stress on growth and yield performance of wheat genotypes. Journal of Applied Research in Plant Sciences, 3(02), 260-269. DOI: https://doi.org/10.38211/joarps.2022.3.2.32

Steel, R., Torrie, J., & Dickey, D. (1997). Principles and procedure of statistics. A biometrical approach 3rd ed. Mcgraw hillbookco. Inc., New York, 352-358.

Talebi, R., Fayaz, F., & Naji, A. M. (2009). Effective selection criteria for assessing drought stress tolerance in durum wheat (triticum durum desf.). General and applied plant physiology, 35(1/2), 64-74.

Tripathi, S., Marker, S., Pandey, P., Jaiswal, K., & Tiwari, D. (2011). Relationship between some morphological and physiological traits with grain yield in bread wheat (triticum aestivum l. Em. Thell.). Trends in Applied Sciences Research, 6(9), 1037. DOI: https://doi.org/10.3923/tasr.2011.1037.1045

Waqar-Ul-Haq, M., Malik, F., Rashid, M., Munir, M., & Akram, Z. (2008). Evaluation and estimation of heritability and genetic advancement for yield related attributes in wheat lines. Pakistan Journal of Botany, 40(4), 1699-1702.

Yousaf, M. I., Akhtar, N., Mumtaz, A., Akbar, W., Javeed, H. M., Bhatti, M. H., & Mehmood, A. (2017). Contribution of spike-related traits for grain yield in spring wheat. J. Agric. Basic Sci, 2(2), 30-36.

Zare, M., Shokrpour, M., & Nejad, S. E. H. (2017). Correlation and path coefficient analysis in wheat (triticum aestivum l.) under various drought stress conditions. Bangladesh Journal of Botany, 46(4), 1309-1315.

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Published

2023-01-01

How to Cite

Ahmed, H. G. M.-D., Fatima , N., Faisal, A., Ullah, A., Ali, M., Ameen, M., … Imran, M. (2023). Characterization of Bread Wheat Genotypes Using Spike Related Traits for Sustainable Yield Potential. Journal of Applied Research in Plant Sciences , 4(01), 469–476. https://doi.org/10.38211/joarps.2023.04.01.56